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Permutation matrices play an important role in understand the structure of magic squares. In this work, we use a class of symmetric permutation matrices than can be used to categorize magic squares. Many magic squares with a high degree of…

History and Overview · Mathematics 2010-07-20 Peter Staab , Charles Fisher , Mark Maggio , Michael Andrade , Erin Farrell , Haley Schilling

We consider a game in which a blindfolded player attempts to set $n$ counters lying on the vertices of a rotating regular $n$-gon table simultaneously to $0$. When the counters count$\pmod{m}$ we simplify the argument of Bar Yehuda, Etzion,…

Combinatorics · Mathematics 2024-03-01 Samuel Korsky

The face lattice of the permutohedron realizes the combinatorics of linearly ordered partitions of the set $[n]=\{1,...,n\}$. Similarly, the cyclopermutohedron is a virtual polytope that realizes the combinatorics of cyclically ordered…

Metric Geometry · Mathematics 2015-05-05 Ilya Nekrasov , Gaiane Panina

A magic labelling of a set system is a labelling of its points by distinct positive integers so that every set of the system has the same sum, the magic sum. Examples are magic squares (the sets are the rows, columns, and diagonals) and…

Combinatorics · Mathematics 2007-05-25 Matthias Beck , Thomas Zaslavsky

We geometrically prove that in a d-dimensional cube with edges of length n, the number of particular d-dimensional tetrahedrons are given by Eulerian numbers. These tetrahedrons tassellate the cube, In this way the sum of the cubes are the…

History and Overview · Mathematics 2011-03-23 Mario Barra

Using computational algebraic geometry techniques and Hilbert bases of polyhedral cones we derive explicit formulas and generating functions for the number of magic squares and magic cubes.

Combinatorics · Mathematics 2007-05-23 M. Ahmed , J. De Loera , R. Hemmecke

The face poset of the permutohedron realizes the combinatorics of linearly ordered partitions of the set $[n]=\{1,...,n\}$. Similarly, the cyclopermutohedron is a virtual polytope that realizes the combinatorics of cyclically ordered…

Metric Geometry · Mathematics 2016-02-02 Ilia Nekrasov , Gaiane Panina , Alena Zhukova

A k-magic square of order n is an arrangement of the numbers from 0 to kn-1 in an n by n matrix, such that each row and each column has exactly k filled cells, each number occurs exactly once, and the sum of the entries of any row or any…

Combinatorics · Mathematics 2018-05-01 Abdollah Khodkar , David Leach

An associative magic square is a magic square such that the sum of any 2 cells at symmetric positions with respect to the center is constant. The total number of associative magic squares of order 7 is enormous, and thus, it is not…

Combinatorics · Mathematics 2019-06-19 Go Kato , Shin-ichi Minato

Magic squares have been an enthralling topic in mathematics for centuries. They are formed by filling in all the cells of a square matrix with the numbers starting from one so that the sum of all rows, columns, and diagonals is the same.…

History and Overview · Mathematics 2014-02-14 Grasha Jacob , A. Murugan

In recreational mathematics, a normal magic square is an $n \times n$ square matrix whose entries are distinctly the integers $1 \ldots n^2$, such that each row, column, and major and minor traces sum to one constant $\mu$. It has been…

History and Overview · Mathematics 2016-02-04 Jared Weed

A permutohedral variety is a remarkable object in various areas of mathematics, and its topological invariants are widely recognized. However, only little is known about a real permutohedral variety, that is, the real locus of a…

Algebraic Topology · Mathematics 2024-10-01 Suyoung Choi , Younghan Yoon

Let $\Gamma$ be a group of order $n^2$ and $SMS_{\Gamma}(n)=(a_{i,j})_{n\times n}$ be an $n\times n$ array whose entries are all distinct elements of $\Gamma$. If there exists an element $\mu\in\Gamma$ such that for every row $i$, there…

Combinatorics · Mathematics 2026-02-26 Sylwia Cichacz , Dalibor Froncek

There are 880 magic squares of size 4 by 4, and 275,305,224 of size 5 by 5. It seems very difficult if not impossible to count exactly the number of higher order magic squares. We propose a method to estimate these numbers by Monte Carlo…

Statistical Mechanics · Physics 2015-06-25 K. Pinn , C. Wieczerkowski

Consider the regular representation of the sum over all permutations weighted by the sum of their descent, inversion, and fixed point multinomials. We compute the spectrum and the multiplicities of its elements of that matrix. Note that…

Combinatorics · Mathematics 2020-05-13 Hery Randriamaro

We review a known method of compounding two magic square matrices of order m and n with the all-ones matrix to form two magic square matrices of order mn. We show that these compounded matrices commute. Simple formulas are derived for their…

General Mathematics · Mathematics 2020-09-09 Ronald P. Nordgren

We introduce and study arithmetic polygons. We show that these arithmetic polygons are connected to triples of square pyramidal numbers. For every odd $N\geq3$, we prove that there is at least one arithmetic polygon with $N$ sides. We also…

Number Theory · Mathematics 2026-02-16 Jack Anderson , Amy Woodall , Alexandru Zaharescu

Skeletal polyhedra and polygonal complexes in ordinary Euclidean 3-space are finite or infinite 3-periodic structures with interesting geometric, combinatorial, and algebraic properties. They can be viewed as finite or infinite 3-periodic…

Metric Geometry · Mathematics 2014-03-04 Egon Schulte

To represent positive integers by regular patterns on a plane or in three-dimensional space may be traced back to the Pythagoreans. The aim of the present article is to explore the possibility of extending the representation framework for…

General Mathematics · Mathematics 2008-07-02 D. A. Sardelis , T. M. Valahas

In this short note we have produced different kinds of bimagic squares using only the digits 0, 1, 2, 5 and 8. The universal bimagic squares presented are of order 8x8, 9x9, 16x16 and 25x25. In order to bring universal bimagic square of…

History and Overview · Mathematics 2010-10-14 Inder Jeet Taneja